Like this:

how you attempt to steer a complex system is not the prime issue
steer with love
steer with fear
steer with anything
the prime issue is your motive to steer
if the purpose (goal) does not synchronize with the complex systems innate motive, thus by default all other complex systems interactive
you are fucked
the complex system self rectifies , forced to by the momentum of the other systems effects upon it

Quoting: aether

I see your words as pulses, wave forms…interesting. That is the immediate ‘image’ I get.

The motive is intention, sending out your own personal pulses into the system. The system has infinitely more pulses reacting, and if yours is in dissonance to the complex system, the complex system’s pulses will soon nullify through interference patterns, all of the individual’s pulses. If it resonates, the pulses harmonize and the intention grows greater into the system through ‘mergence’.

What would be incredible, is a form of varied intention from an isolated source, that is somehow harmonic with the complex system. One isolated source, putting out motive from all these different angles…philosophy, spiritual, communal, etc…all harmonic to the system, resonating through the complex system, changing it to new patterns of pulses…shortly afterward becoming self perpetuating and reactive. Quoting: Chad

Like this:

NASA
…lightning discharge in a thundercloud can temporarily change the electric field above the cloud where charged ice crystals were reflecting sunlight. The new electric field quickly re-orients the geometric crystals to a new orientation that reflects sunlight differently. In other words, a lightning discharge can cause a sundog to jump.

Astronomers have found the brightest and youngest example yet of a fast-spinning star, suggesting that the extremely luminous versions of these super-dense objects may be far more common than thought…

..The pulsar’s extreme brightness and youth challenge current ideas about how super-bright millisecond pulsars form and how widespread they may be, researchers said…

…When a mass as great as our sun’s is packed into a space the size of a city, the conserved angular momentum causes the resulting neutron star to spin very rapidly and to emit a ray of high-energy light that sweeps around like a lighthouse beam.

This light appears to pulse because astronomers see the beam only when it’s pointed at Earth. “Normal” pulsars rotate at a rate between 7 and 3,750 revolutions per minute, but millisecond pulsars can spin much faster — up to 43,000 rotations per minute…

J1823-3021A also appears to have a much stronger magnetic field than other millisecond pulsars. The exotic object’s combination of characteristics is likely to have astronomers scratching their heads, Freire said.

…“It challenges the way we believe millisecond pulsars form,” he said. “It was not thought that, for the spin period of this object (5.44 ms), they could be so energetic and have such a high magnetic field.”…

Eric Dollard Using Fibonacci Sequences to Improve on Lakhovsky’s Multi-Wave OscillatorHere is the story of the Multi-Wave Oscillator. It is part Tesla coil, part Earth generator, pure genius. Lakhovsky’s device was used in this country until 1942 and in Europe for about another 15 years. It was ordered removed from the US hospitals that were using it shortly after Lakhovsky died in 1942. He was hit by a car. Coincidence? You be the judge.

What Lakhovsky discovered was simply mind-boggling: Lakhovsky was the first to predict the existence of the double helix we now know as DNA. He postulated that all living cells (plants, people, bacteria, parasites, etc.) possess attributes that normally are associated with oscillating electrical circuits. These cellular attributes include resistance, capacitance, and inductance. These 3 electrical properties, when properly configured, will cause the oscillation of high frequency sine waves when sustained by a small, steady supply of outside energy of the right frequency. This effect is known as resonance. It’s easiest to compare it with a child swinging on a playground swing. As long as the parent pushes the swing a little at the right moment (the correct ‘frequency’), the child will continue to swing…

…Lakhovsky’s central idea is this:

Each ring of his special antenna system radiated at a different wavelength and frequency dependent upon its diameter.

The different size rings would set up interference patterns between themselves, producing a plethora of harmonic frequencies at many different wavelengths. The patient would be then be exposed to a “Multi-Wave Oscillating Field”.
[link to www.lakhovsky.com]

Then, another idea came and that was to use the Fibonacci Sequence as a means to ratio the ring’s dimensions and gaps.

Due to follow in the footsteps of the Large Hadron Collider, the latest “big science” experiment being proposed by physicists will see the world’s most powerful laser being constructed.

Capable of producing a beam of light so intense that it would be equivalent to the power received by the Earth from the sun focused onto a speck smaller than a tip of a pin, scientists claim it could allow them boil the very fabric of space – the vacuum.

Contrary to popular belief, a vacuum is not devoid of material but in fact fizzles with tiny mysterious particles that pop in and out of existence, but at speeds so fast that no one has been able to prove they exist.

The Extreme Light Infrastructure Ultra-High Field Facility would produce a laser so intense that scientists say it would allow them to reveal these particles for the first time by pulling this vacuum “fabric” apart.

They also believe it could even allow them to prove whether extra-dimensions exist.

“This laser will be 200 times more powerful than the most powerful lasers that currently exist,” said Professor John Collier, a scientific leader for the ELI project and director of the Central Laser Facility at the Rutherford Appleton Laboratory in Didcot, Oxfordshire.”At this kind of intensity we start to get into unexplored territory as it is an area of physics that we have never been before.”The ELI Ultra-High Field laser is due to be complete by the end of the decade and will cost an estimated £1 billion. Although the location for the facility will not be decided until next year, the UK is among several European countries in the running to host it.The European Commission has already this year approved plans to build three other lasers that will form part of the ELI project and will be prototypes for the Ultra-High Field laser.

Due to sited in the Czech Republic, Hungary and Romania, each laser will coast around £200 million and are scheduled to become operational in 2015.

The Ultra-High Field laser will be made up of 10 beams, each twice as powerful as the prototype lasers, allowing it to produce 200 petawatts of power – more than 100,000 times the power of the world’s combined electricity production – for less than a trillionth of a second.

The huge amounts of energy needed to produce a laser beam of this strength is stored up over time before it is fired to produce large laser beams several feet wide that are then combined and focused down onto a tiny spot, much like sunlight through a magnifying glass.

At the focal point, the intensity of the light will produce conditions that are so extreme they do not exist even in the center of our sun.

It will cause the mysterious particles of matter and antimatter thought to make up a vacuum to be pulled apart, allowing scientists to detect the tiny electrical charges they produce.

These “ghost particles”, as they are known, normally annihilate one another as soon as they appear, but by using the laser to pull them apart, physicists believe they will be able to detect them.

It could help to explain the mystery of why the universe contains far more matter than we have been able to detect by revealing what so called dark matter really is.

Professor Wolfgang Sandner, coordinator of the Laserlab Europe network and president of the German Physics Society, said: “We are taught to think of the vacuum as empty space, but it seems even a true vacuum is filled with pairs of molecules that come into our universe for an extremely short time.
“An extremely powerful laser should be able to pull these particles apart and keep them in existence for longer.

“There are many challenges to be over come before we can do that, but it is mainly a matter of scaling up the technology we have so we can produce the powers needed.”

The Science and Technology Facilities Council, which provides funds for Britain’s involvement in major science facilities including the Large Hadron Collider at CERN in Geneva, has marked out the ELI as a key area it wants to focus on.

Scientists at the Centre for Advanced Laser Technology and Applications at Rutherford Appleton Laboratories in Dicot, Oxfordshire, are already developing technology that will be essential for producing such powerful lasers.

The Centre is thought to be one of the prime candidates for where the Ultra-High Field laser could be located, but it faces competition from sites in Russia, France, Hungary, Romania and the Czech Republic.
As well as offering new insights in to undiscovered realms of physics, scientists say the ELI lasers will also produce new laser based treatments for cancer and medical diagnostics.

Dr Thomas Heinzl, an associate professor of theoretical physics at Plymouth University, said: “ELI is going to take us into an uncharted regime of physics. There could well be some surprises along the way.”

Like this:

Lakhovsky’s Multi-Wave OscillatorHere is the story of the Multi-Wave Oscillator. It is part Tesla coil, part Earth generator, pure genius. Lakhovsky’s device was used in this country until 1942 and in Europe for about another 15 years. It was ordered removed from the US hospitals that were using it shortly after Lakhovsky died in 1942. He was hit by a car. Coincidence? You be the judge.

What Lakhovsky discovered was simply mind-boggling: Lakhovsky was the first to predict the existence of the double helix we now know as DNA. He postulated that all living cells (plants, people, bacteria, parasites, etc.) possess attributes that normally are associated with oscillating electrical circuits. These cellular attributes include resistance, capacitance, and inductance. These 3 electrical properties, when properly configured, will cause the oscillation of high frequency sine waves when sustained by a small, steady supply of outside energy of the right frequency. This effect is known as resonance. It’s easiest to compare it with a child swinging on a playground swing. As long as the parent pushes the swing a little at the right moment (the correct ‘frequency’), the child will continue to swing…

…Lakhovsky’s central idea is this:

Each ring of his special antenna system radiated at a different wavelength and frequency dependent upon its diameter.

The different size rings would set up interference patterns between themselves, producing a plethora of harmonic frequencies at many different wavelengths. The patient would be then be exposed to a “Multi-Wave Oscillating Field”.
[link to www.lakhovsky.com]

Then, another idea came and that was to use the Fibonacci Sequence as a means to ratio the ring’s dimensions and gaps.

Like this:

Frozen Puck Hovers Over Track Using “Quantum Levitation”

By Olivia Solon, Wired UK
Researchers at the school of physics and astronomy at Tel Aviv University have created a track around which a semiconductor can float, thanks to the phenomenon of “quantum levitation“.

This levitation effect is explained by the Meissner effect, which describes how, when a material makes the transition from its normal to its superconducting state, it actively excludes magnetic fields from its interior, leaving only a thin layer on its surface.
When a material is in its superconducting state — which involves very low temperatures — it is strongly diamagnetic. This means that when a magnetic field is externally applied, it will create an equally opposing magnetic field, locking it in place.
A material called yttrium barium copper oxide can be turned into a superconductor by exposure to liquid nitrogen — which makes it one of the highest-temperature superconductors.
In the video it appears that a puck of yttrium barium copper oxide cooled by liquid nitrogen is repelling the magnets embedded on the handheld device. It also shows that the angle of the magnet can be locked in a magnetic field. Later in the video the puck can be seen to zoom round a circular track of magnets, in the same way that Maglev high-speed trains do.Source: Wired.co.uk